The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskning

Standard

The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima. / Hou, Xiaoru; Bjerre, Anne-Belinda; Hansen, Jonas Høeg; Bruhn, Annette; Saake, Bodo; Meyer, Anne; Manns, Dirk; Rasmussen, Michael Bo; Møller Nielsen, Mette; Petersen, Jens Kjerulf; Tørring, Ditte; Daugbjerg, Peter; Seghetta, Michele; Bastianoni, Simone; Thomsen, Marianne.

2013. Abstract fra BIT's 2nd Annual International Congress of Algae-2013, Hangzhou, Kina.

Publikation: KonferencebidragKonferenceabstrakt til konferenceForskning

Harvard

Hou, X, Bjerre, A-B, Hansen, JH, Bruhn, A, Saake, B, Meyer, A, Manns, D, Rasmussen, MB, Møller Nielsen, M, Petersen, JK, Tørring, D, Daugbjerg, P, Seghetta, M, Bastianoni, S & Thomsen, M 2013, 'The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima', BIT's 2nd Annual International Congress of Algae-2013, Hangzhou, Kina, 23/09/2013 - 25/09/2013. <http://www.bitcongress.com/aica2013/program.asp#>

APA

Hou, X., Bjerre, A-B., Hansen, J. H., Bruhn, A., Saake, B., Meyer, A., Manns, D., Rasmussen, M. B., Møller Nielsen, M., Petersen, J. K., Tørring, D., Daugbjerg, P., Seghetta, M., Bastianoni, S., & Thomsen, M. (2013). The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima. Abstract fra BIT's 2nd Annual International Congress of Algae-2013, Hangzhou, Kina. http://www.bitcongress.com/aica2013/program.asp#

Vancouver

Hou X, Bjerre A-B, Hansen JH, Bruhn A, Saake B, Meyer A o.a.. The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima. 2013. Abstract fra BIT's 2nd Annual International Congress of Algae-2013, Hangzhou, Kina.

Author

Hou, Xiaoru ; Bjerre, Anne-Belinda ; Hansen, Jonas Høeg ; Bruhn, Annette ; Saake, Bodo ; Meyer, Anne ; Manns, Dirk ; Rasmussen, Michael Bo ; Møller Nielsen, Mette ; Petersen, Jens Kjerulf ; Tørring, Ditte ; Daugbjerg, Peter ; Seghetta, Michele ; Bastianoni, Simone ; Thomsen, Marianne. / The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima. Abstract fra BIT's 2nd Annual International Congress of Algae-2013, Hangzhou, Kina.1 s.

Bibtex

@conference{edf694581cd144f78b5974b21b32c6bc,
title = "The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima",
abstract = "A new Danish macroalgae project (Acronym MAB3) financed by the Danish Strategic Research Council presents an integrated macroalgae biorefinery concept. It was started from march 2012 and will continue for the next 4 years (2012-2016). Initial studies on the first harvested materials of wild Laminaria digtata (harvested during the summer 2012 from Limfjorden in Denmark), including cultivation, pretreatment and bioethanol set-up and trials will be presented in this presentation. The macroalgae substrates were screw-pressed to dewater and the algae biomass were fractionated before storage by ensiling (with lactic acid bacteria) or simple drying. Pretreatment was carried out using wet-milling and enzymatic hydrolysis in accordance with 1G bioethanol technology from corn. Different commercial enzyme mixtures for fully or partly hydrolysis of algae sugar polymers into monomers were tested and conversion of the differently pretreated macroalgae biomass into ethanol by fermentation were compared. The protein contents and nutrient salts in residues from ethanol fermentation trials were characterized for potential fish feed.A first-step scenario for sustainability and feasibility assessment will be presented for this innovative process of biorefining of value-added algae proteins derived directly through fermentation processes of algae sugars to bioenergy carriers.",
author = "Xiaoru Hou and Anne-Belinda Bjerre and Hansen, {Jonas H{\o}eg} and Annette Bruhn and Bodo Saake and Anne Meyer and Dirk Manns and Rasmussen, {Michael Bo} and {M{\o}ller Nielsen}, Mette and Petersen, {Jens Kjerulf} and Ditte T{\o}rring and Peter Daugbjerg and Michele Seghetta and Simone Bastianoni and Marianne Thomsen",
note = "Contribution - initial economic and environmental sustainability assessment performed within the MAB3 project (www.MAB3.dk); null ; Conference date: 23-09-2013 Through 25-09-2013",
year = "2013",
month = sep,
day = "25",
language = "English",

}

RIS

TY - ABST

T1 - The Macroalgae Biorefinery for Production of Bioethanol and Fish Feed from the Two Brown Algae: Laminaria Digitata and Saccharina Latissima

AU - Hou, Xiaoru

AU - Bjerre, Anne-Belinda

AU - Hansen, Jonas Høeg

AU - Bruhn, Annette

AU - Saake, Bodo

AU - Meyer, Anne

AU - Manns, Dirk

AU - Rasmussen, Michael Bo

AU - Møller Nielsen, Mette

AU - Petersen, Jens Kjerulf

AU - Tørring, Ditte

AU - Daugbjerg, Peter

AU - Seghetta, Michele

AU - Bastianoni, Simone

AU - Thomsen, Marianne

N1 - Conference code: 2

PY - 2013/9/25

Y1 - 2013/9/25

N2 - A new Danish macroalgae project (Acronym MAB3) financed by the Danish Strategic Research Council presents an integrated macroalgae biorefinery concept. It was started from march 2012 and will continue for the next 4 years (2012-2016). Initial studies on the first harvested materials of wild Laminaria digtata (harvested during the summer 2012 from Limfjorden in Denmark), including cultivation, pretreatment and bioethanol set-up and trials will be presented in this presentation. The macroalgae substrates were screw-pressed to dewater and the algae biomass were fractionated before storage by ensiling (with lactic acid bacteria) or simple drying. Pretreatment was carried out using wet-milling and enzymatic hydrolysis in accordance with 1G bioethanol technology from corn. Different commercial enzyme mixtures for fully or partly hydrolysis of algae sugar polymers into monomers were tested and conversion of the differently pretreated macroalgae biomass into ethanol by fermentation were compared. The protein contents and nutrient salts in residues from ethanol fermentation trials were characterized for potential fish feed.A first-step scenario for sustainability and feasibility assessment will be presented for this innovative process of biorefining of value-added algae proteins derived directly through fermentation processes of algae sugars to bioenergy carriers.

AB - A new Danish macroalgae project (Acronym MAB3) financed by the Danish Strategic Research Council presents an integrated macroalgae biorefinery concept. It was started from march 2012 and will continue for the next 4 years (2012-2016). Initial studies on the first harvested materials of wild Laminaria digtata (harvested during the summer 2012 from Limfjorden in Denmark), including cultivation, pretreatment and bioethanol set-up and trials will be presented in this presentation. The macroalgae substrates were screw-pressed to dewater and the algae biomass were fractionated before storage by ensiling (with lactic acid bacteria) or simple drying. Pretreatment was carried out using wet-milling and enzymatic hydrolysis in accordance with 1G bioethanol technology from corn. Different commercial enzyme mixtures for fully or partly hydrolysis of algae sugar polymers into monomers were tested and conversion of the differently pretreated macroalgae biomass into ethanol by fermentation were compared. The protein contents and nutrient salts in residues from ethanol fermentation trials were characterized for potential fish feed.A first-step scenario for sustainability and feasibility assessment will be presented for this innovative process of biorefining of value-added algae proteins derived directly through fermentation processes of algae sugars to bioenergy carriers.

M3 - Conference abstract for conference

Y2 - 23 September 2013 through 25 September 2013

ER -

ID: 297007468